Zhou Beiyun, Ann David K, Flodby Per, Minoo Parviz, Liebler Janice M, Crandall Edward D, Borok Zea
Will Rogers Institute Pulmonary Research Center, Department of Medicine, University of Southern California, Los Angeles, CA 90033, USA.
Am J Physiol Cell Physiol. 2008 Jul;295(1):C111-20. doi: 10.1152/ajpcell.90620.2007. Epub 2008 Apr 30.
We previously cloned a 4.3-kb genomic fragment encompassing 5'-flanking regulatory elements of rat aquaporin-5 (Aqp5) that demonstrated preferential transcriptional activity in lung and salivary cells in vitro. To investigate the ability of Aqp5 regulatory elements to direct transgene expression in vivo, transgenic (TG) mice and rats were generated in which the 4.3-kb Aqp5 fragment directed the expression of enhanced green fluorescent protein (EGFP). RT-PCR revealed relative promoter specificity for the lung and salivary glands in TG mice. Immunofluorescence microscopy showed strong EGFP expression in salivary acinar cells but not in lung type I (AT1) cells, both known sites of endogenous AQP5 expression. Similar results were obtained in TG rats generated by lentiviral transgenesis. EGFP mRNA was detected in both salivary glands and lung. Robust EGFP fluorescence was observed in frozen sections of the rat salivary gland but not in the lung or other tested tissues. The percentage of EGFP-positive acinar cells was increased in parotid and submandibular glands of TG rats receiving a chronic injection of the beta-adrenergic receptor agonist isoproterenol. EGFP-positive cells in the lung that were also reactive with the AT1-cell specific monoclonal antibody VIIIB2 were identified by flow cytometry. These findings demonstrate that the 4.3-kb Aqp5 promoter/enhancer directs strong cell-specific transgene expression in salivary gland and low-level AT1 cell-specific expression in the lung. While these Aqp5 regulatory elements should be useful for functional studies in salivary glands, additional upstream or intronic cis-active elements are likely required for robust expression in the lung.
我们先前克隆了一个4.3 kb的基因组片段,该片段包含大鼠水通道蛋白5(Aqp5)的5'侧翼调控元件,在体外实验中显示出在肺和唾液腺细胞中具有优先转录活性。为了研究Aqp5调控元件在体内指导转基因表达的能力,我们构建了转基因(TG)小鼠和大鼠,其中4.3 kb的Aqp5片段指导增强型绿色荧光蛋白(EGFP)的表达。RT-PCR显示TG小鼠的肺和唾液腺具有相对的启动子特异性。免疫荧光显微镜检查显示,在唾液腺泡细胞中有强烈的EGFP表达,但在已知内源性AQP5表达位点的肺I型(AT1)细胞中未检测到。通过慢病毒转基因技术构建的TG大鼠也得到了类似的结果。在唾液腺和肺中均检测到EGFP mRNA。在大鼠唾液腺的冰冻切片中观察到强烈的EGFP荧光,但在肺或其他测试组织中未观察到。接受β-肾上腺素能受体激动剂异丙肾上腺素慢性注射的TG大鼠的腮腺和下颌下腺中,EGFP阳性腺泡细胞的百分比增加。通过流式细胞术鉴定了肺中与AT1细胞特异性单克隆抗体VIIIB2反应的EGFP阳性细胞。这些发现表明,4.3 kb的Aqp5启动子/增强子可在唾液腺中指导强烈的细胞特异性转基因表达,并在肺中指导低水平的AT1细胞特异性表达。虽然这些Aqp5调控元件对唾液腺的功能研究应该有用,但可能需要额外的上游或内含子顺式作用元件才能在肺中实现强大的表达。